/******************************************************************************
 *
 * Project:  GXF Reader
 * Purpose:  Majority of Geosoft GXF reading code.
 * Author:   Frank Warmerdam, warmerdam@pobox.com
 *
 ******************************************************************************
 * Copyright (c) 1998, Global Geomatics
 * Copyright (c) 1998, Frank Warmerdam
 * Copyright (c) 2008-2012, Even Rouault <even dot rouault at spatialys.com>
 *
 * SPDX-License-Identifier: MIT
 ****************************************************************************/

#include "cpl_port.h"

#include <ctype.h>
#include "gxfopen.h"

/* this is also defined in gdal.h which we avoid in this separable component */
#define CPLE_WrongFormat 200

#define MAX_LINE_COUNT_PER_HEADER 1000
#define MAX_HEADER_COUNT 1000

/************************************************************************/
/*                         GXFReadHeaderValue()                         */
/*                                                                      */
/*      Read one entry from the file header, and return it and its      */
/*      value in clean form.                                            */
/************************************************************************/

static char **GXFReadHeaderValue(VSILFILE *fp, char *pszHTitle)

{
    const char *pszLine;
    char **papszReturn = NULL;
    int i;
    int nLineCount = 0, nReturnLineCount = 0;
    int bContinuedLine = FALSE;

    /* -------------------------------------------------------------------- */
    /*      Try to read a line.  If we fail or if this isn't a proper       */
    /*      header value then return the failure.                           */
    /* -------------------------------------------------------------------- */
    pszLine = CPLReadLineL(fp);
    if (pszLine == NULL)
    {
        strcpy(pszHTitle, "#EOF");
        return (NULL);
    }

    /* -------------------------------------------------------------------- */
    /*      Extract the title.  It should be terminated by some sort of     */
    /*      white space.                                                    */
    /* -------------------------------------------------------------------- */
    for (i = 0;
         i < 70 && !isspace((unsigned char)pszLine[i]) && pszLine[i] != '\0';
         i++)
    {
    }

    strncpy(pszHTitle, pszLine, i);
    pszHTitle[i] = '\0';

    /* -------------------------------------------------------------------- */
    /*      If this is #GRID, then return ... we are at the end of the      */
    /*      header.                                                         */
    /* -------------------------------------------------------------------- */
    if (EQUAL(pszHTitle, "#GRID"))
        return NULL;

    /* -------------------------------------------------------------------- */
    /*      Skip white space.                                               */
    /* -------------------------------------------------------------------- */
    while (isspace((unsigned char)pszLine[i]))
        i++;

    /* -------------------------------------------------------------------- */
    /*    If we have reached the end of the line, try to read another line. */
    /* -------------------------------------------------------------------- */
    if (pszLine[i] == '\0')
    {
        pszLine = CPLReadLineL(fp);
        if (pszLine == NULL)
        {
            strcpy(pszHTitle, "#EOF");
            return (NULL);
        }
    }

    /* -------------------------------------------------------------------- */
    /*      Keeping adding the value stuff as new lines till we reach a     */
    /*      `#' mark at the beginning of a new line.                        */
    /* -------------------------------------------------------------------- */
    do
    {
        vsi_l_offset nCurPos;
        char chNextChar = 0;
        char *pszTrimmedLine;
        size_t nLen = strlen(pszLine);

        /* Lines are supposed to be limited to 80 characters */
        if (nLen > 1024)
        {
            CSLDestroy(papszReturn);
            return NULL;
        }

        pszTrimmedLine = CPLStrdup(pszLine);

        for (i = ((int)nLen) - 1; i >= 0 && pszLine[i] == ' '; i--)
            pszTrimmedLine[i] = '\0';

        if (bContinuedLine)
        {
            char *pszTmp =
                (char *)VSIMalloc(strlen(papszReturn[nReturnLineCount - 1]) +
                                  strlen(pszTrimmedLine) + 1);
            if (pszTmp == NULL)
            {
                CSLDestroy(papszReturn);
                CPLFree(pszTrimmedLine);
                return NULL;
            }
            strcpy(pszTmp, papszReturn[nReturnLineCount - 1]);
            if (pszTrimmedLine[0] == '\0')
                pszTmp[strlen(papszReturn[nReturnLineCount - 1]) - 1] = 0;
            else
                strcpy(pszTmp + (strlen(papszReturn[nReturnLineCount - 1]) - 1),
                       pszTrimmedLine);
            CPLFree(papszReturn[nReturnLineCount - 1]);
            papszReturn[nReturnLineCount - 1] = pszTmp;
        }
        else
        {
            papszReturn = CSLAddString(papszReturn, pszTrimmedLine);
            nReturnLineCount++;
        }

        /* Is it a continued line ? */
        bContinuedLine = (i >= 0 && pszTrimmedLine[i] == '\\');

        CPLFree(pszTrimmedLine);

        nCurPos = VSIFTellL(fp);
        if (VSIFReadL(&chNextChar, 1, 1, fp) != 1)
        {
            CSLDestroy(papszReturn);
            return NULL;
        }
        VSIFSeekL(fp, nCurPos, SEEK_SET);

        if (chNextChar == '#')
            pszLine = NULL;
        else
        {
            pszLine = CPLReadLineL(fp);
            nLineCount++;
        }
    } while (pszLine != NULL && nLineCount < MAX_LINE_COUNT_PER_HEADER);

    return (papszReturn);
}

/************************************************************************/
/*                              GXFOpen()                               */
/************************************************************************/

/**
 * Open a GXF file, and collect contents of the header.
 *
 * @param pszFilename the name of the file to open.
 *
 * @return a handle for use with other GXF functions to access the file.  This
 * will be NULL if the access fails.
 */

GXFHandle GXFOpen(const char *pszFilename)

{
    VSILFILE *fp;
    GXFInfo_t *psGXF;
    char szTitle[71];
    char **papszList;
    int nHeaderCount = 0;

    /* -------------------------------------------------------------------- */
    /*      We open in binary to ensure that we can efficiently seek()      */
    /*      to any location when reading scanlines randomly.  If we         */
    /*      opened as text we might still be able to seek(), but I          */
    /*      believe that on Windows, the C library has to read through      */
    /*      all the data to find the right spot taking into account DOS     */
    /*      CRs.                                                            */
    /* -------------------------------------------------------------------- */
    fp = VSIFOpenL(pszFilename, "rb");

    if (fp == NULL)
    {
        /* how to effectively communicate this error out? */
        CPLError(CE_Failure, CPLE_OpenFailed, "Unable to open file: %s\n",
                 pszFilename);
        return NULL;
    }

    /* -------------------------------------------------------------------- */
    /*      Create the GXF Information object.                              */
    /* -------------------------------------------------------------------- */
    psGXF = (GXFInfo_t *)VSICalloc(sizeof(GXFInfo_t), 1);
    psGXF->fp = fp;
    psGXF->dfTransformScale = 1.0;
    psGXF->nSense = GXFS_LL_RIGHT;
    psGXF->dfXPixelSize = 1.0;
    psGXF->dfYPixelSize = 1.0;
    psGXF->dfSetDummyTo = -1e12;

    psGXF->dfUnitToMeter = 1.0;
    psGXF->pszTitle = VSIStrdup("");

    /* -------------------------------------------------------------------- */
    /*      Read the header, one line at a time.                            */
    /* -------------------------------------------------------------------- */
    while ((papszList = GXFReadHeaderValue(fp, szTitle)) != NULL &&
           nHeaderCount < MAX_HEADER_COUNT)
    {
        if (STARTS_WITH_CI(szTitle, "#TITL"))
        {
            CPLFree(psGXF->pszTitle);
            psGXF->pszTitle = CPLStrdup(papszList[0]);
        }
        else if (STARTS_WITH_CI(szTitle, "#POIN"))
        {
            psGXF->nRawXSize = atoi(papszList[0]);
        }
        else if (STARTS_WITH_CI(szTitle, "#ROWS"))
        {
            psGXF->nRawYSize = atoi(papszList[0]);
        }
        else if (STARTS_WITH_CI(szTitle, "#PTSE"))
        {
            psGXF->dfXPixelSize = CPLAtof(papszList[0]);
        }
        else if (STARTS_WITH_CI(szTitle, "#RWSE"))
        {
            psGXF->dfYPixelSize = CPLAtof(papszList[0]);
        }
        else if (STARTS_WITH_CI(szTitle, "#DUMM"))
        {
            memset(psGXF->szDummy, 0, sizeof(psGXF->szDummy));
            strncpy(psGXF->szDummy, papszList[0], sizeof(psGXF->szDummy) - 1);
            psGXF->dfSetDummyTo = CPLAtof(papszList[0]);
        }
        else if (STARTS_WITH_CI(szTitle, "#XORI"))
        {
            psGXF->dfXOrigin = CPLAtof(papszList[0]);
        }
        else if (STARTS_WITH_CI(szTitle, "#YORI"))
        {
            psGXF->dfYOrigin = CPLAtof(papszList[0]);
        }
        else if (STARTS_WITH_CI(szTitle, "#ZMIN"))
        {
            psGXF->dfZMinimum = CPLAtof(papszList[0]);
        }
        else if (STARTS_WITH_CI(szTitle, "#ZMAX"))
        {
            psGXF->dfZMaximum = CPLAtof(papszList[0]);
        }
        else if (STARTS_WITH_CI(szTitle, "#SENS"))
        {
            psGXF->nSense = atoi(papszList[0]);
        }
        else if (STARTS_WITH_CI(szTitle, "#MAP_PROJECTION") &&
                 psGXF->papszMapProjection == NULL)
        {
            psGXF->papszMapProjection = papszList;
            papszList = NULL;
        }
        else if (STARTS_WITH_CI(szTitle, "#MAP_D") &&
                 psGXF->papszMapDatumTransform == NULL)
        {
            psGXF->papszMapDatumTransform = papszList;
            papszList = NULL;
        }
        else if (STARTS_WITH_CI(szTitle, "#UNIT") && psGXF->pszUnitName == NULL)
        {
            char **papszFields;

            papszFields =
                CSLTokenizeStringComplex(papszList[0], ", ", TRUE, TRUE);

            if (CSLCount(papszFields) > 1)
            {
                psGXF->pszUnitName = VSIStrdup(papszFields[0]);
                psGXF->dfUnitToMeter = CPLAtof(papszFields[1]);
                if (psGXF->dfUnitToMeter == 0.0)
                    psGXF->dfUnitToMeter = 1.0;
            }

            CSLDestroy(papszFields);
        }
        else if (STARTS_WITH_CI(szTitle, "#TRAN") &&
                 psGXF->pszTransformName == NULL)
        {
            char **papszFields;

            papszFields =
                CSLTokenizeStringComplex(papszList[0], ", ", TRUE, TRUE);

            if (CSLCount(papszFields) > 1)
            {
                psGXF->dfTransformScale = CPLAtof(papszFields[0]);
                psGXF->dfTransformOffset = CPLAtof(papszFields[1]);
            }

            if (CSLCount(papszFields) > 2)
                psGXF->pszTransformName = CPLStrdup(papszFields[2]);

            CSLDestroy(papszFields);
        }
        else if (STARTS_WITH_CI(szTitle, "#GTYPE"))
        {
            psGXF->nGType = atoi(papszList[0]);
            if (psGXF->nGType < 0 || psGXF->nGType > 20)
            {
                CSLDestroy(papszList);
                GXFClose(psGXF);
                return NULL;
            }
        }

        CSLDestroy(papszList);
        nHeaderCount++;
    }

    CSLDestroy(papszList);

    /* -------------------------------------------------------------------- */
    /*      Did we find the #GRID?                                          */
    /* -------------------------------------------------------------------- */
    if (!STARTS_WITH_CI(szTitle, "#GRID"))
    {
        GXFClose(psGXF);
        CPLError(CE_Failure, CPLE_WrongFormat,
                 "Didn't parse through to #GRID successfully in.\n"
                 "file `%s'.\n",
                 pszFilename);

        return NULL;
    }

    /* -------------------------------------------------------------------- */
    /*      Allocate, and initialize the raw scanline offset array.         */
    /* -------------------------------------------------------------------- */
    if (psGXF->nRawYSize <= 0 || psGXF->nRawYSize >= INT_MAX)
    {
        GXFClose(psGXF);
        return NULL;
    }

    /* Avoid excessive memory allocation */
    if (psGXF->nRawYSize >= 1000000)
    {
        vsi_l_offset nCurOffset;
        vsi_l_offset nFileSize;
        nCurOffset = VSIFTellL(psGXF->fp);
        VSIFSeekL(psGXF->fp, 0, SEEK_END);
        nFileSize = VSIFTellL(psGXF->fp);
        VSIFSeekL(psGXF->fp, nCurOffset, SEEK_SET);
        if ((vsi_l_offset)psGXF->nRawYSize > nFileSize)
        {
            GXFClose(psGXF);
            return NULL;
        }
    }

    psGXF->panRawLineOffset =
        (vsi_l_offset *)VSICalloc(sizeof(vsi_l_offset), psGXF->nRawYSize + 1);
    if (psGXF->panRawLineOffset == NULL)
    {
        GXFClose(psGXF);
        return NULL;
    }

    psGXF->panRawLineOffset[0] = VSIFTellL(psGXF->fp);

    /* -------------------------------------------------------------------- */
    /*      Update the zmin/zmax values to take into account #TRANSFORM     */
    /*      information.                                                    */
    /* -------------------------------------------------------------------- */
    if (psGXF->dfZMinimum != 0.0 || psGXF->dfZMaximum != 0.0)
    {
        psGXF->dfZMinimum = (psGXF->dfZMinimum * psGXF->dfTransformScale) +
                            psGXF->dfTransformOffset;
        psGXF->dfZMaximum = (psGXF->dfZMaximum * psGXF->dfTransformScale) +
                            psGXF->dfTransformOffset;
    }

    return ((GXFHandle)psGXF);
}

/************************************************************************/
/*                              GXFClose()                              */
/************************************************************************/

/**
 * Close GXF file opened with GXFOpen().
 *
 * @param hGXF handle to GXF file.
 */

void GXFClose(GXFHandle hGXF)

{
    GXFInfo_t *psGXF = hGXF;

    CPLFree(psGXF->panRawLineOffset);
    CPLFree(psGXF->pszUnitName);
    CSLDestroy(psGXF->papszMapDatumTransform);
    CSLDestroy(psGXF->papszMapProjection);
    CPLFree(psGXF->pszTitle);
    CPLFree(psGXF->pszTransformName);

    VSIFCloseL(psGXF->fp);

    CPLReadLineL(NULL);

    CPLFree(psGXF);
}

/************************************************************************/
/*                           GXFParseBase90()                           */
/*                                                                      */
/*      Parse a base 90 number ... exceptions (repeat, and dummy)       */
/*      values have to be recognised outside this function.             */
/************************************************************************/

CPL_NOSANITIZE_UNSIGNED_INT_OVERFLOW
static double GXFParseBase90(GXFInfo_t *psGXF, const char *pszText, int bScale)

{
    int i = 0;
    unsigned int nValue = 0;

    while (i < psGXF->nGType)
    {
        nValue = nValue * 90U + (unsigned)(pszText[i] - 37);
        i++;
    }

    if (bScale)
        return ((nValue * psGXF->dfTransformScale) + psGXF->dfTransformOffset);
    else
        return (nValue);
}

/************************************************************************/
/*                       GXFReadRawScanlineFrom()                       */
/************************************************************************/

static CPLErr GXFReadRawScanlineFrom(GXFInfo_t *psGXF, vsi_l_offset iOffset,
                                     vsi_l_offset *pnNewOffset,
                                     double *padfLineBuf)

{
    const char *pszLine;
    int nValuesRead = 0, nValuesSought = psGXF->nRawXSize;

    if (VSIFSeekL(psGXF->fp, iOffset, SEEK_SET) != 0)
        return CE_Failure;

    while (nValuesRead < nValuesSought)
    {
        pszLine = CPLReadLineL(psGXF->fp);
        if (pszLine == NULL)
            break;

        /* --------------------------------------------------------------------
         */
        /*      Uncompressed case. */
        /* --------------------------------------------------------------------
         */
        if (psGXF->nGType == 0)
        {
            /* we could just tokenize the line, but that's pretty expensive.
               Instead I will parse on white space ``by hand''. */
            while (*pszLine != '\0' && nValuesRead < nValuesSought)
            {
                int i;

                /* skip leading white space */
                for (; isspace((unsigned char)*pszLine); pszLine++)
                {
                }

                /* Skip the data value (non white space) */
                for (i = 0;
                     pszLine[i] != '\0' && !isspace((unsigned char)pszLine[i]);
                     i++)
                {
                }

                if (strncmp(pszLine, psGXF->szDummy, i) == 0)
                {
                    padfLineBuf[nValuesRead++] = psGXF->dfSetDummyTo;
                }
                else
                {
                    padfLineBuf[nValuesRead++] = CPLAtof(pszLine);
                }

                /* skip further whitespace */
                for (pszLine += i; isspace((unsigned char)*pszLine); pszLine++)
                {
                }
            }
        }

        /* --------------------------------------------------------------------
         */
        /*      Compressed case. */
        /* --------------------------------------------------------------------
         */
        else
        {
            size_t nLineLenOri = strlen(pszLine);
            int nLineLen = (int)nLineLenOri;

            while (*pszLine != '\0' && nValuesRead < nValuesSought)
            {
                if (nLineLen < psGXF->nGType)
                    return CE_Failure;

                if (pszLine[0] == '!')
                {
                    padfLineBuf[nValuesRead++] = psGXF->dfSetDummyTo;
                }
                else if (pszLine[0] == '"')
                {
                    int nCount, i;
                    double dfValue;

                    pszLine += psGXF->nGType;
                    nLineLen -= psGXF->nGType;
                    if (nLineLen < psGXF->nGType)
                    {
                        pszLine = CPLReadLineL(psGXF->fp);
                        if (pszLine == NULL)
                            return CE_Failure;
                        nLineLenOri = strlen(pszLine);
                        nLineLen = (int)nLineLenOri;
                        if (nLineLen < psGXF->nGType)
                            return CE_Failure;
                    }

                    nCount = (int)GXFParseBase90(psGXF, pszLine, FALSE);
                    pszLine += psGXF->nGType;
                    nLineLen -= psGXF->nGType;

                    if (nLineLen < psGXF->nGType)
                    {
                        pszLine = CPLReadLineL(psGXF->fp);
                        if (pszLine == NULL)
                            return CE_Failure;
                        nLineLenOri = strlen(pszLine);
                        nLineLen = (int)nLineLenOri;
                        if (nLineLen < psGXF->nGType)
                            return CE_Failure;
                    }

                    if (*pszLine == '!')
                        dfValue = psGXF->dfSetDummyTo;
                    else
                        dfValue = GXFParseBase90(psGXF, pszLine, TRUE);

                    if (nValuesRead + nCount > nValuesSought)
                    {
                        CPLError(CE_Failure, CPLE_AppDefined,
                                 "Wrong count value");
                        return CE_Failure;
                    }

                    for (i = 0; i < nCount && nValuesRead < nValuesSought; i++)
                        padfLineBuf[nValuesRead++] = dfValue;
                }
                else
                {
                    padfLineBuf[nValuesRead++] =
                        GXFParseBase90(psGXF, pszLine, TRUE);
                }

                pszLine += psGXF->nGType;
                nLineLen -= psGXF->nGType;
            }
        }
    }

    /* -------------------------------------------------------------------- */
    /*      Return the new offset, if requested.                            */
    /* -------------------------------------------------------------------- */
    if (pnNewOffset != NULL)
    {
        *pnNewOffset = VSIFTellL(psGXF->fp);
    }

    return CE_None;
}

/************************************************************************/
/*                           GXFGetScanline()                           */
/************************************************************************/

/**
 * Read a scanline of raster data from GXF file.
 *
 * This function operates similarly to GXFGetRawScanline(), but it
 * attempts to mirror data horizontally or vertically based on the #SENSE
 * flag to return data in a top to bottom, and left to right organization.
 * If the file is organized in columns (#SENSE is GXFS_UR_DOWN, GXFS_UL_DOWN,
 * GXFS_LR_UP, or GXFS_LL_UP) then this function will fail, returning
 * CE_Failure, and reporting a sense error.
 *
 * See GXFGetRawScanline() for other notes.
 *
 * @param hGXF the GXF file handle, as returned from GXFOpen().
 * @param iScanline the scanline to read, zero is the top scanline.
 * @param padfLineBuf a buffer of doubles into which the scanline pixel
 * values are read.  This must be at least as long as a scanline.
 *
 * @return CE_None if access succeeds or CE_Failure if something goes wrong.
 */

CPLErr GXFGetScanline(GXFHandle hGXF, int iScanline, double *padfLineBuf)

{
    GXFInfo_t *psGXF = hGXF;
    CPLErr nErr;
    int iRawScanline;

    if (psGXF->nSense == GXFS_LL_RIGHT || psGXF->nSense == GXFS_LR_LEFT)
    {
        iRawScanline = psGXF->nRawYSize - iScanline - 1;
    }

    else if (psGXF->nSense == GXFS_UL_RIGHT || psGXF->nSense == GXFS_UR_LEFT)
    {
        iRawScanline = iScanline;
    }
    else
    {
        CPLError(CE_Failure, CPLE_AppDefined,
                 "Unable to support vertically oriented images.");
        return (CE_Failure);
    }

    nErr = GXFGetRawScanline(hGXF, iRawScanline, padfLineBuf);

    if (nErr == CE_None &&
        (psGXF->nSense == GXFS_LR_LEFT || psGXF->nSense == GXFS_UR_LEFT))
    {
        int i;
        double dfTemp;

        for (i = psGXF->nRawXSize / 2 - 1; i >= 0; i--)
        {
            dfTemp = padfLineBuf[i];
            padfLineBuf[i] = padfLineBuf[psGXF->nRawXSize - i - 1];
            padfLineBuf[psGXF->nRawXSize - i - 1] = dfTemp;
        }
    }

    return (nErr);
}

/************************************************************************/
/*                         GXFGetRawScanline()                          */
/************************************************************************/

/**
 * Read a scanline of raster data from GXF file.
 *
 * This function will read a row of data from the GXF file.  It is "Raw"
 * in the sense that it doesn't attempt to account for the #SENSE flag as
 * the GXFGetScanline() function does.  Unlike GXFGetScanline(), this function
 * supports column organized files.
 *
 * Any dummy pixels are assigned the dummy value indicated by GXFGetRawInfo().
 *
 * @param hGXF the GXF file handle, as returned from GXFOpen().
 * @param iScanline the scanline to read, zero is the first scanline in the
 * file.
 * @param padfLineBuf a buffer of doubles into which the scanline pixel
 * values are read.  This must be at least as long as a scanline.
 *
 * @return CE_None if access succeeds or CE_Failure if something goes wrong.
 */

CPLErr GXFGetRawScanline(GXFHandle hGXF, int iScanline, double *padfLineBuf)

{
    GXFInfo_t *psGXF = hGXF;
    CPLErr eErr;

    /* -------------------------------------------------------------------- */
    /*      Validate scanline.                                              */
    /* -------------------------------------------------------------------- */
    if (iScanline < 0 || iScanline >= psGXF->nRawYSize)
    {
        CPLError(CE_Failure, CPLE_IllegalArg,
                 "GXFGetRawScanline(): Scanline `%d' does not exist.\n",
                 iScanline);
        return CE_Failure;
    }

    /* -------------------------------------------------------------------- */
    /*      If we don't have the requested scanline, fetch preceding        */
    /*      scanlines to find the pointer to this scanline.                 */
    /* -------------------------------------------------------------------- */
    if (psGXF->panRawLineOffset[iScanline] == 0)
    {
        int i;

        CPLAssert(iScanline > 0);

        for (i = 0; i < iScanline; i++)
        {
            if (psGXF->panRawLineOffset[i + 1] == 0)
            {
                eErr = GXFGetRawScanline(hGXF, i, padfLineBuf);
                if (eErr != CE_None)
                    return (eErr);
            }
        }
    }

    /* -------------------------------------------------------------------- */
    /*      Get this scanline, and update the offset for the next line.     */
    /* -------------------------------------------------------------------- */
    eErr = GXFReadRawScanlineFrom(psGXF, psGXF->panRawLineOffset[iScanline],
                                  psGXF->panRawLineOffset + iScanline + 1,
                                  padfLineBuf);

    return eErr;
}

/************************************************************************/
/*                         GXFScanForZMinMax()                          */
/*                                                                      */
/*      The header doesn't contain the ZMin/ZMax values, but the        */
/*      application has requested it ... scan the entire image for      */
/*      it.                                                             */
/************************************************************************/

static void GXFScanForZMinMax(GXFHandle hGXF)

{
    GXFInfo_t *psGXF = hGXF;
    int iLine, iPixel;
    double *padfScanline;

    padfScanline = (double *)VSICalloc(sizeof(double), psGXF->nRawXSize);
    if (padfScanline == NULL)
        return;

    psGXF->dfZMinimum = 1e50;
    psGXF->dfZMaximum = -1e50;

    for (iLine = 0; iLine < psGXF->nRawYSize; iLine++)
    {
        if (GXFGetRawScanline(hGXF, iLine, padfScanline) != CE_None)
            break;

        for (iPixel = 0; iPixel < psGXF->nRawXSize; iPixel++)
        {
            if (padfScanline[iPixel] != psGXF->dfSetDummyTo)
            {
                psGXF->dfZMinimum =
                    MIN(psGXF->dfZMinimum, padfScanline[iPixel]);
                psGXF->dfZMaximum =
                    MAX(psGXF->dfZMaximum, padfScanline[iPixel]);
            }
        }
    }

    VSIFree(padfScanline);

    /* -------------------------------------------------------------------- */
    /*      Did we get any real data points?                                */
    /* -------------------------------------------------------------------- */
    if (psGXF->dfZMinimum > psGXF->dfZMaximum)
    {
        psGXF->dfZMinimum = 0.0;
        psGXF->dfZMaximum = 0.0;
    }
}

/************************************************************************/
/*                             GXFGetRawInfo()                          */
/************************************************************************/

/**
 * Fetch header information about a GXF file.
 *
 * Note that the X and Y sizes are of the raw raster and don't take into
 * account the #SENSE flag.  If the file is column oriented (rows in the
 * files are actually columns in the raster) these values would need to be
 * transposed for the actual raster.
 *
 * The legal pnSense values are:
 * <ul>
 * <li> GXFS_LL_UP(-1): lower left origin, scanning up.
 * <li> GXFS_LL_RIGHT(1): lower left origin, scanning right.
 * <li> GXFS_UL_RIGHT(-2): upper left origin, scanning right.
 * <li> GXFS_UL_DOWN(2): upper left origin, scanning down.
 * <li> GXFS_UR_DOWN(-3): upper right origin, scanning down.
 * <li> GXFS_UR_LEFT(3): upper right origin, scanning left.
 * <li> GXFS_LR_LEFT(-4): lower right origin, scanning left.
 * <li> GXFS_LR_UP(4): lower right origin, scanning up.
 * </ul>
 *
 * Note that the GXFGetScanline() function attempts to provide a GXFS_UL_RIGHT
 * view onto files, but doesn't handle the *_DOWN and *_UP oriented files.
 *
 * The Z min and max values may not occur in the GXF header.  If they are
 * requested, and aren't available in the header the entire file is scanned
 * in order to establish them.  This can be expensive.
 *
 * If no #DUMMY value was specified in the file, a default of -1e12 is used.
 *
 * @param hGXF handle to GXF file returned by GXFOpen().
 * @param pnXSize int to be set with the width of the raw raster.  May be NULL.
 * @param pnYSize int to be set with the height of the raw raster. May be NULL.
 * @param pnSense int to set with #SENSE flag, may be NULL.
 * @param pdfZMin double to set with minimum raster value, may be NULL.
 * @param pdfZMax double to set with minimum raster value, may be NULL.
 * @param pdfDummy double to set with dummy (nodata / invalid data) pixel
 * value.
 */

CPLErr GXFGetRawInfo(GXFHandle hGXF, int *pnXSize, int *pnYSize, int *pnSense,
                     double *pdfZMin, double *pdfZMax, double *pdfDummy)

{
    GXFInfo_t *psGXF = hGXF;

    if (pnXSize != NULL)
        *pnXSize = psGXF->nRawXSize;

    if (pnYSize != NULL)
        *pnYSize = psGXF->nRawYSize;

    if (pnSense != NULL)
        *pnSense = psGXF->nSense;

    if ((pdfZMin != NULL || pdfZMax != NULL) && psGXF->dfZMinimum == 0.0 &&
        psGXF->dfZMaximum == 0.0)
    {
        GXFScanForZMinMax(hGXF);
    }

    if (pdfZMin != NULL)
        *pdfZMin = psGXF->dfZMinimum;

    if (pdfZMax != NULL)
        *pdfZMax = psGXF->dfZMaximum;

    if (pdfDummy != NULL)
        *pdfDummy = psGXF->dfSetDummyTo;

    return (CE_None);
}

/************************************************************************/
/*                        GXFGetMapProjection()                         */
/************************************************************************/

/**
 * Return the lines related to the map projection.  It is up to
 * the caller to parse them and interpret.  The return result
 * will be NULL if no #MAP_PROJECTION line was found in the header.
 *
 * @param hGXF the GXF file handle.
 *
 * @return a NULL terminated array of string pointers containing the
 * projection, or NULL.  The strings remained owned by the GXF API, and
 * should not be modified or freed by the caller.
 */

char **GXFGetMapProjection(GXFHandle hGXF)

{
    return ((hGXF)->papszMapProjection);
}

/************************************************************************/
/*                      GXFGetMapDatumTransform()                       */
/************************************************************************/

/**
 * Return the lines related to the datum transformation.  It is up to
 * the caller to parse them and interpret.  The return result
 * will be NULL if no #MAP_DATUM_TRANSFORM line was found in the header.
 *
 * @param hGXF the GXF file handle.
 *
 * @return a NULL terminated array of string pointers containing the
 * datum, or NULL.  The strings remained owned by the GXF API, and
 * should not be modified or freed by the caller.
 */

char **GXFGetMapDatumTransform(GXFHandle hGXF)

{
    return ((hGXF)->papszMapDatumTransform);
}

/************************************************************************/
/*                         GXFGetRawPosition()                          */
/************************************************************************/

/**
 * Get the raw grid positioning information.
 *
 * Note that these coordinates refer to the raw grid, and are in the units
 * specified by the #UNITS field.  See GXFGetPosition() for a similar
 * function that takes into account the #SENSE values similarly to
 * GXFGetScanline().
 *
 * Note that the pixel values are considered to be point values in GXF,
 * and thus the origin is for the first point.  If you consider the pixels
 * to be areas, then the origin is for the center of the origin pixel, not
 * the outer corner.
 *
 * @param hGXF the GXF file handle.
 * @param pdfXOrigin X position of the origin in the base coordinate system.
 * @param pdfYOrigin Y position of the origin in the base coordinate system.
 * @param pdfXPixelSize X pixel size in base coordinates.
 * @param pdfYPixelSize Y pixel size in base coordinates.
 * @param pdfRotation rotation in degrees counter-clockwise from the
 * base coordinate system.
 *
 * @return Returns CE_None if successful, or CE_Failure if no posiitioning
 * information was found in the file.
 */

CPLErr GXFGetRawPosition(GXFHandle hGXF, double *pdfXOrigin, double *pdfYOrigin,
                         double *pdfXPixelSize, double *pdfYPixelSize,
                         double *pdfRotation)

{
    GXFInfo_t *psGXF = hGXF;

    if (pdfXOrigin != NULL)
        *pdfXOrigin = psGXF->dfXOrigin;
    if (pdfYOrigin != NULL)
        *pdfYOrigin = psGXF->dfYOrigin;
    if (pdfXPixelSize != NULL)
        *pdfXPixelSize = psGXF->dfXPixelSize;
    if (pdfYPixelSize != NULL)
        *pdfYPixelSize = psGXF->dfYPixelSize;
    if (pdfRotation != NULL)
        *pdfRotation = psGXF->dfRotation;

    if (psGXF->dfXOrigin == 0.0 && psGXF->dfYOrigin == 0.0 &&
        psGXF->dfXPixelSize == 0.0 && psGXF->dfYPixelSize == 0.0)
        return (CE_Failure);
    else
        return (CE_None);
}

/************************************************************************/
/*                           GXFGetPosition()                           */
/************************************************************************/

/**
 * Get the grid positioning information.
 *
 * Note that these coordinates refer to the grid positioning after taking
 * into account the #SENSE flag (as is done by the GXFGetScanline()) function.
 *
 * Note that the pixel values are considered to be point values in GXF,
 * and thus the origin is for the first point.  If you consider the pixels
 * to be areas, then the origin is for the center of the origin pixel, not
 * the outer corner.
 *
 * This function does not support vertically oriented images, nor does it
 * properly transform rotation for images with a SENSE other than
 * GXFS_UL_RIGHT.
 *
 * @param hGXF the GXF file handle.
 * @param pdfXOrigin X position of the origin in the base coordinate system.
 * @param pdfYOrigin Y position of the origin in the base coordinate system.
 * @param pdfXPixelSize X pixel size in base coordinates.
 * @param pdfYPixelSize Y pixel size in base coordinates.
 * @param pdfRotation rotation in degrees counter-clockwise from the
 * base coordinate system.
 *
 * @return Returns CE_None if successful, or CE_Failure if no posiitioning
 * information was found in the file.
 */

CPLErr GXFGetPosition(GXFHandle hGXF, double *pdfXOrigin, double *pdfYOrigin,
                      double *pdfXPixelSize, double *pdfYPixelSize,
                      double *pdfRotation)

{
    GXFInfo_t *psGXF = hGXF;
    double dfCXOrigin, dfCYOrigin, dfCXPixelSize, dfCYPixelSize;

    switch (psGXF->nSense)
    {
        case GXFS_UL_RIGHT:
            dfCXOrigin = psGXF->dfXOrigin;
            dfCYOrigin = psGXF->dfYOrigin;
            dfCXPixelSize = psGXF->dfXPixelSize;
            dfCYPixelSize = psGXF->dfYPixelSize;
            break;

        case GXFS_UR_LEFT:
            dfCXOrigin =
                psGXF->dfXOrigin - (psGXF->nRawXSize - 1) * psGXF->dfXPixelSize;
            dfCYOrigin = psGXF->dfYOrigin;
            dfCXPixelSize = psGXF->dfXPixelSize;
            dfCYPixelSize = psGXF->dfYPixelSize;
            break;

        case GXFS_LL_RIGHT:
            dfCXOrigin = psGXF->dfXOrigin;
            dfCYOrigin =
                psGXF->dfYOrigin + (psGXF->nRawYSize - 1) * psGXF->dfYPixelSize;
            dfCXPixelSize = psGXF->dfXPixelSize;
            dfCYPixelSize = psGXF->dfYPixelSize;
            break;

        case GXFS_LR_LEFT:
            dfCXOrigin =
                psGXF->dfXOrigin - (psGXF->nRawXSize - 1) * psGXF->dfXPixelSize;
            dfCYOrigin =
                psGXF->dfYOrigin + (psGXF->nRawYSize - 1) * psGXF->dfYPixelSize;
            dfCXPixelSize = psGXF->dfXPixelSize;
            dfCYPixelSize = psGXF->dfYPixelSize;
            break;

        default:
            CPLError(CE_Failure, CPLE_AppDefined,
                     "GXFGetPosition() doesn't support vertically organized "
                     "images.");
            return CE_Failure;
    }

    if (pdfXOrigin != NULL)
        *pdfXOrigin = dfCXOrigin;
    if (pdfYOrigin != NULL)
        *pdfYOrigin = dfCYOrigin;
    if (pdfXPixelSize != NULL)
        *pdfXPixelSize = dfCXPixelSize;
    if (pdfYPixelSize != NULL)
        *pdfYPixelSize = dfCYPixelSize;
    if (pdfRotation != NULL)
        *pdfRotation = psGXF->dfRotation;

    if (psGXF->dfXOrigin == 0.0 && psGXF->dfYOrigin == 0.0 &&
        psGXF->dfXPixelSize == 0.0 && psGXF->dfYPixelSize == 0.0)
        return (CE_Failure);
    else
        return (CE_None);
}
